A survey of classical and quantum interpretations of experiments on Josephson junctions at very low temperatures

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• 作者：James A. Blackburn^a ; Matteo Cirillo^b ; ¹ ; ^{cirillo@roma2.infn.it" class="auth_mail" title="E-mail the corresponding author} ; Niels Grø ; nbech-Jensen^c ; ^d
• 关键词：Josephson junctions ; Macroscopic quantum tunneling ; Washboard potential ; Bias sweep
• 刊名：Physics Reports
• 出版年：2016
• 出版时间：5 February 2016
• 年：2016
• 卷：611
• 期：Complete
• 页码：1-33
• 全文大小：5422 K

文摘

For decades following its introduction in 1968, the resistively and capacitively shunted junction (RCSJ) model, sometimes referred to as the Stewart–McCumber model, was successfully applied to study the dynamics of Josephson junctions embedded in a variety of superconducting circuits. In 1980 a theoretical conjecture by A.J. Leggett suggested a possible new and quite different behavior for Josephson junctions at very low temperatures. A number of experiments seemed to confirm this prediction and soon it was taken as given that junctions at tens of millikelvins should be regarded as macroscopic quantum entities. As such, they would possess discrete levels in their effective potential wells, and would escape from those wells (with the appearance of a finite junction voltage) via a macroscopic quantum tunneling process. A zeal to pursue this new physics led to a virtual abandonment of the RCSJ model in this low temperature regime. In this paper we consider a selection of essentially prototypical experiments that were carried out with the intention of confirming aspects of anticipated macroscopic quantum behavior in Josephson junctions. We address two questions: (1) How successful is the non-quantum theory (RCSJ model) in replicating those experiments? (2) How strong is the evidence that data from these same experiments does indeed reflect macroscopic quantum behavior?